A cyber security strategy to mitigate cloud computing risks within the investment management sector in Cape Town
- Authors: Monareng, Glacier Jamela
- Date: 2024-04
- Subjects: Cloud computing , Computer security , Computer science
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/64717 , vital:73866
- Description: Adoption of cloud computing has become a transformative force in modern information technology, revolutionizing how organisations procure, manage, and deliver IT resources as well as IT services. This treatise explores the implementation of cloud computing in the investment management sector. It focuses on potential cloud security risks, broader implications for businesses and IT ecosystems, and subsequently the treatise conceptualises a strategy that may help in responding to these security risks. The study began by surveying the motivations behind cloud adoption in the investment sector, emphasising the potential cost savings, scalability, and flexibility cloud services offer. It then delves into the challenges faced during implementation, including security concerns, data privacy, compliance issues, and the intricacies of transitioning legacy systems to cloud environments. In response to these challenges, the treatise outlines strategies for successful cloud implementation within the investment sector, in Cape Town, South Africa. It highlights the significance of selecting appropriate cloud service models (for example, IaaS, PaaS, or SaaS) and deployment options (for example, public, private, hybrid, or multi-cloud) to align with organisational needs and objectives. The study followed a qualitative research study. In collecting data an open-ended online survey was sent to participants. The participants were from an investment company in Cape Town. The study employed the design science research paradigm with the aim of developing an artefact. The methodology used was the Nelson Mandela University-Design Science Strategy Methodology (NMU-DSSM) In conclusion, this treatise conceptualises a strategy that may help companies investing in cloud computing technologies to mitigate cyber security and cloud risks. It recommends practices that underscore cloud computing's transformative potential while acknowledging its complexity and challenges. The strategy may serve as a valuable resource for IT professionals, decision-makers, and organisations embarking on the cloud journey, offering guidance and perspectives to navigate the complexities and to realise the potential benefits of cloud technology. , Thesis (MPhil) -- Faculty of Engineering, the Built Environment and Technology, School of Information Technology, 2024
- Full Text:
- Date Issued: 2024-04
- Authors: Monareng, Glacier Jamela
- Date: 2024-04
- Subjects: Cloud computing , Computer security , Computer science
- Language: English
- Type: Master's theses , text
- Identifier: http://hdl.handle.net/10948/64717 , vital:73866
- Description: Adoption of cloud computing has become a transformative force in modern information technology, revolutionizing how organisations procure, manage, and deliver IT resources as well as IT services. This treatise explores the implementation of cloud computing in the investment management sector. It focuses on potential cloud security risks, broader implications for businesses and IT ecosystems, and subsequently the treatise conceptualises a strategy that may help in responding to these security risks. The study began by surveying the motivations behind cloud adoption in the investment sector, emphasising the potential cost savings, scalability, and flexibility cloud services offer. It then delves into the challenges faced during implementation, including security concerns, data privacy, compliance issues, and the intricacies of transitioning legacy systems to cloud environments. In response to these challenges, the treatise outlines strategies for successful cloud implementation within the investment sector, in Cape Town, South Africa. It highlights the significance of selecting appropriate cloud service models (for example, IaaS, PaaS, or SaaS) and deployment options (for example, public, private, hybrid, or multi-cloud) to align with organisational needs and objectives. The study followed a qualitative research study. In collecting data an open-ended online survey was sent to participants. The participants were from an investment company in Cape Town. The study employed the design science research paradigm with the aim of developing an artefact. The methodology used was the Nelson Mandela University-Design Science Strategy Methodology (NMU-DSSM) In conclusion, this treatise conceptualises a strategy that may help companies investing in cloud computing technologies to mitigate cyber security and cloud risks. It recommends practices that underscore cloud computing's transformative potential while acknowledging its complexity and challenges. The strategy may serve as a valuable resource for IT professionals, decision-makers, and organisations embarking on the cloud journey, offering guidance and perspectives to navigate the complexities and to realise the potential benefits of cloud technology. , Thesis (MPhil) -- Faculty of Engineering, the Built Environment and Technology, School of Information Technology, 2024
- Full Text:
- Date Issued: 2024-04
A cloud adoption framework for South African SMEs
- Authors: Mudzamba, Ronald Ratidzo
- Date: 2020
- Subjects: Cloud computing , Cloud computing -- Security measures , Small business -- Technological innovations -- South Africa -- Eastern Cape , Small business -- Information technology -- South Africa -- Eastern Cape , Information technology -- South Africa -- Eastern Cape , Technology-Organisation-Environment (TOE) framework , Small to Medium Enterprises (SMEs)
- Language: English
- Type: text , Thesis , Masters , MCom
- Identifier: http://hdl.handle.net/10962/148574 , vital:38751
- Description: Small to Medium Enterprises (SMEs) have been touted as key enablers to the economic development of most countries. Despite growing evidence that most SMEs fail within their initial years, ICTs have been found to add substantial value in facilitating their success. However, in most developing countries, ICT adoption by SMEs has been plagued with a plethora of challenges ranging from poor electricity supply, high ICT costs, lack of ICT expertise to lack of government support. While this might seem problematic for SMEs, the adoption and the use of cloud services mitigates some of these challenges. The problem, however, is that a limited amount of literature has provided guidance with regard to how the cloud adoption process should be carried out by SMEs. The objective of this research, was therefore, to address this by developing a framework that can be used by SMEs to guide them through the cloud adoption process. To this end, thirteen (13) semi-structured interviews were conducted across nine (9) SMEs in the Eastern Cape. The resultant interview transcripts were analysed using an established thematic approach; the result of which allowed for the development of a rich interpretive narrative about SME cloud adoption. Combined with theory from extant literature, this culminated in the development of a framework for cloud services adoption for SMEs in the Eastern Cape.
- Full Text:
- Date Issued: 2020
- Authors: Mudzamba, Ronald Ratidzo
- Date: 2020
- Subjects: Cloud computing , Cloud computing -- Security measures , Small business -- Technological innovations -- South Africa -- Eastern Cape , Small business -- Information technology -- South Africa -- Eastern Cape , Information technology -- South Africa -- Eastern Cape , Technology-Organisation-Environment (TOE) framework , Small to Medium Enterprises (SMEs)
- Language: English
- Type: text , Thesis , Masters , MCom
- Identifier: http://hdl.handle.net/10962/148574 , vital:38751
- Description: Small to Medium Enterprises (SMEs) have been touted as key enablers to the economic development of most countries. Despite growing evidence that most SMEs fail within their initial years, ICTs have been found to add substantial value in facilitating their success. However, in most developing countries, ICT adoption by SMEs has been plagued with a plethora of challenges ranging from poor electricity supply, high ICT costs, lack of ICT expertise to lack of government support. While this might seem problematic for SMEs, the adoption and the use of cloud services mitigates some of these challenges. The problem, however, is that a limited amount of literature has provided guidance with regard to how the cloud adoption process should be carried out by SMEs. The objective of this research, was therefore, to address this by developing a framework that can be used by SMEs to guide them through the cloud adoption process. To this end, thirteen (13) semi-structured interviews were conducted across nine (9) SMEs in the Eastern Cape. The resultant interview transcripts were analysed using an established thematic approach; the result of which allowed for the development of a rich interpretive narrative about SME cloud adoption. Combined with theory from extant literature, this culminated in the development of a framework for cloud services adoption for SMEs in the Eastern Cape.
- Full Text:
- Date Issued: 2020
Design of a Traffic Surveillance Application using iFogSim
- Authors: Sinqandu, Mluleki
- Date: 2020
- Subjects: Cloud computing
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10353/18676 , vital:42705
- Description: __iFogSim is a toolkit to model, simulate and evaluate networks of Fog computing, Edge computing and Internet of Things (IoT). This framework provides the capabilities of analysing and evaluating the performance of applications and resource management policies in Fog/IoT environments, based on which designers can model and test their applications. This thesis proposes a novel application model of a traffic surveillance vehicular network application through smart cameras using iFogSim, where the scenario of multiple vehicles tracking is considered. The effectiveness of the proposed application model is assessed and validated by simulations using a modified application model inherited from a case study of intelligent surveillance through distributed camera networks introduced. Simulations are conducted using the iFogSim tool and performance evaluation is done. The comparison between one vehicle and multiple vehicle tracking is done and the results demonstrate that the multiple vehicle application model achieves a better performance in terms of average latency and data transfer rate
- Full Text:
- Date Issued: 2020
- Authors: Sinqandu, Mluleki
- Date: 2020
- Subjects: Cloud computing
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10353/18676 , vital:42705
- Description: __iFogSim is a toolkit to model, simulate and evaluate networks of Fog computing, Edge computing and Internet of Things (IoT). This framework provides the capabilities of analysing and evaluating the performance of applications and resource management policies in Fog/IoT environments, based on which designers can model and test their applications. This thesis proposes a novel application model of a traffic surveillance vehicular network application through smart cameras using iFogSim, where the scenario of multiple vehicles tracking is considered. The effectiveness of the proposed application model is assessed and validated by simulations using a modified application model inherited from a case study of intelligent surveillance through distributed camera networks introduced. Simulations are conducted using the iFogSim tool and performance evaluation is done. The comparison between one vehicle and multiple vehicle tracking is done and the results demonstrate that the multiple vehicle application model achieves a better performance in terms of average latency and data transfer rate
- Full Text:
- Date Issued: 2020
A strategy for adopting cloud computing services in small, medium and micro enterprises (SME) in the Nelson Mandela Metropole
- Authors: Sarpong, George
- Date: 2019
- Subjects: Cloud computing , Technological innovations -- Management Information technology -- Management Management information systems New business enterprises -- South Africa -- Nelson Mandela Bay Municipality Small business -- South Africa -- Management
- Language: English
- Type: Thesis , Masters , MPhil
- Identifier: http://hdl.handle.net/10948/43567 , vital:36920
- Description: Small, medium and micro enterprises (SMEs) in South Africa continue to form the foundation for growing the economy. Thus, these enterprises have a significant role in to play in helping the country to eliminate poverty and unemployment. In order for these businesses to continue to grow and stay abreast with the changing business landscape, these businesses need to adopt some or other form of technology. One such technology is cloud computing, which is at times referred to as external hosting. Cloud computing is a type of technology that allows any business to operate as if it had a team of dedicated professional information technology (IT) personnel continually checking and monitoring its IT systems. As a result, cloud computing often allows a business to save on costs, improve communication with clients and speed up the transfer of information across the business. Thus, as SMEs often have small or non-existent IT departments, cloud computing offers these business an opportunity to compete with larger corporations without having to compromise on the quality of their service. However, in spite of these benefits, cloud computing still remains something of a novelty to many small businesses that operate in Nelson Mandela Metropole, as these businesses tend to either adopt a small portion of the technology or not to adopt the technology at all. The reasons for not significantly investing in the technology are usually far ranging but are often linked to these businesses not understanding how the service can be best used to help their business to grow. This study includes a description of a strategy that SMEs can follow when adopting cloud computing services as part of their business models. In addition to this, this study includes a discussion on the various benefits and disadvantages that await SMEs that make the decision to invest in the service.
- Full Text:
- Date Issued: 2019
- Authors: Sarpong, George
- Date: 2019
- Subjects: Cloud computing , Technological innovations -- Management Information technology -- Management Management information systems New business enterprises -- South Africa -- Nelson Mandela Bay Municipality Small business -- South Africa -- Management
- Language: English
- Type: Thesis , Masters , MPhil
- Identifier: http://hdl.handle.net/10948/43567 , vital:36920
- Description: Small, medium and micro enterprises (SMEs) in South Africa continue to form the foundation for growing the economy. Thus, these enterprises have a significant role in to play in helping the country to eliminate poverty and unemployment. In order for these businesses to continue to grow and stay abreast with the changing business landscape, these businesses need to adopt some or other form of technology. One such technology is cloud computing, which is at times referred to as external hosting. Cloud computing is a type of technology that allows any business to operate as if it had a team of dedicated professional information technology (IT) personnel continually checking and monitoring its IT systems. As a result, cloud computing often allows a business to save on costs, improve communication with clients and speed up the transfer of information across the business. Thus, as SMEs often have small or non-existent IT departments, cloud computing offers these business an opportunity to compete with larger corporations without having to compromise on the quality of their service. However, in spite of these benefits, cloud computing still remains something of a novelty to many small businesses that operate in Nelson Mandela Metropole, as these businesses tend to either adopt a small portion of the technology or not to adopt the technology at all. The reasons for not significantly investing in the technology are usually far ranging but are often linked to these businesses not understanding how the service can be best used to help their business to grow. This study includes a description of a strategy that SMEs can follow when adopting cloud computing services as part of their business models. In addition to this, this study includes a discussion on the various benefits and disadvantages that await SMEs that make the decision to invest in the service.
- Full Text:
- Date Issued: 2019
Adoption of cloud computing by the South African public sector
- Authors: Govender, Judian
- Date: 2016
- Subjects: Information technology -- Economic aspects -- South Africa , Cloud computing
- Language: English
- Type: Thesis , Masters , MBA
- Identifier: http://hdl.handle.net/10948/6791 , vital:21142
- Description: Technology enables progress for individuals and organisations; however, adopting technology may not always be simple. Cloud computing technology has revolutionised how one consumes IT. Governments too can leverage the advantages of adopting cloud computing. A review of the literature reveals a gap in research on the adoption of cloud computing by the South African public sector. Limited research has been done on the topic of cloud computing and none of them are from a quantitative perspective. This study set out to answer the question, “What is the extent (current state, benefits, barriers and readiness levels) of the adoption of cloud computing by the South Africa public sector?” The study is of much value to the public sector of South Africa and other countries and organisations wanting to understand what to consider when adopting cloud computing. The study used a survey research strategy that was exploratory in nature. The sample comprised government CIO’s and government Senior IT management. Questionnaires were sent via a web link and 51 responses were completed. The results revealed that more than half of the South African public sector has adopted cloud computing; however there is a lack of visibility of government initiatives that promote cloud computing. The study shows that public organisations that have adopted cloud computing significantly perceive more benefits of cloud computing than organisations that are yet to adopt. The Technology Organisation Environment (TOE) framework tested the barriers to adoption, revealing areas of concern that are limiting successful cloud computing adoption and adoption rates. The study uncovers a timeline for further cloud computing adoption in the South African public sector.
- Full Text:
- Date Issued: 2016
- Authors: Govender, Judian
- Date: 2016
- Subjects: Information technology -- Economic aspects -- South Africa , Cloud computing
- Language: English
- Type: Thesis , Masters , MBA
- Identifier: http://hdl.handle.net/10948/6791 , vital:21142
- Description: Technology enables progress for individuals and organisations; however, adopting technology may not always be simple. Cloud computing technology has revolutionised how one consumes IT. Governments too can leverage the advantages of adopting cloud computing. A review of the literature reveals a gap in research on the adoption of cloud computing by the South African public sector. Limited research has been done on the topic of cloud computing and none of them are from a quantitative perspective. This study set out to answer the question, “What is the extent (current state, benefits, barriers and readiness levels) of the adoption of cloud computing by the South Africa public sector?” The study is of much value to the public sector of South Africa and other countries and organisations wanting to understand what to consider when adopting cloud computing. The study used a survey research strategy that was exploratory in nature. The sample comprised government CIO’s and government Senior IT management. Questionnaires were sent via a web link and 51 responses were completed. The results revealed that more than half of the South African public sector has adopted cloud computing; however there is a lack of visibility of government initiatives that promote cloud computing. The study shows that public organisations that have adopted cloud computing significantly perceive more benefits of cloud computing than organisations that are yet to adopt. The Technology Organisation Environment (TOE) framework tested the barriers to adoption, revealing areas of concern that are limiting successful cloud computing adoption and adoption rates. The study uncovers a timeline for further cloud computing adoption in the South African public sector.
- Full Text:
- Date Issued: 2016
AC3P: an architecture using cloud computing for the provision of mathematical powerpoint content to feature phones
- Authors: Joubert, Jean-Pierre
- Date: 2012
- Subjects: Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10474 , http://hdl.handle.net/10948/d1011088 , Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Description: The Govan Mbeki Mathematics Development Unit (GMMDU) provides additional mathematics content to learners via mathematics workshops and DVDs. Mathematics is presented in PPT format. The prominence of feature phone usage has been confirmed amongst learners in socio-economic disadvantaged schools, specifically those learners participating in the GMMDU mathematics workshops. Feature phones typically contain limited device resources such as memory, battery power, and network resources. Distributed computing provides the potential to facilitate a new class of mobile applications with the provision of off-device resources. The objective of this research was the design of an architecture using Cloud Computing for the provision of mathematics in the form of PPT slides to feature phones. The capabilities of typical feature phones were reviewed as well as various distributed computing architectures that demonstrate potential benefit to the mobile environment. An Architecture using Cloud Computing for Content Provision (AC3P) was subsequently designed and applied as a proof of concept to facilitate the provision of mathematics in the form of PPT slides to feature phones. The application of AC3P was evaluated for efficiency and effectiveness. It was demonstrated that the application of AC3P provided efficient and effective provision of PPT to feature phones. The successful application of AC3P provided evidence that Cloud Computing may be used to facilitate the provision of mathematics content to feature phones. It is evident that AC3P may be applied in domains other than the provision of mathematics.
- Full Text:
- Date Issued: 2012
- Authors: Joubert, Jean-Pierre
- Date: 2012
- Subjects: Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10474 , http://hdl.handle.net/10948/d1011088 , Cloud computing , Mobile computing , Mathematics -- Study and teaching.
- Description: The Govan Mbeki Mathematics Development Unit (GMMDU) provides additional mathematics content to learners via mathematics workshops and DVDs. Mathematics is presented in PPT format. The prominence of feature phone usage has been confirmed amongst learners in socio-economic disadvantaged schools, specifically those learners participating in the GMMDU mathematics workshops. Feature phones typically contain limited device resources such as memory, battery power, and network resources. Distributed computing provides the potential to facilitate a new class of mobile applications with the provision of off-device resources. The objective of this research was the design of an architecture using Cloud Computing for the provision of mathematics in the form of PPT slides to feature phones. The capabilities of typical feature phones were reviewed as well as various distributed computing architectures that demonstrate potential benefit to the mobile environment. An Architecture using Cloud Computing for Content Provision (AC3P) was subsequently designed and applied as a proof of concept to facilitate the provision of mathematics in the form of PPT slides to feature phones. The application of AC3P was evaluated for efficiency and effectiveness. It was demonstrated that the application of AC3P provided efficient and effective provision of PPT to feature phones. The successful application of AC3P provided evidence that Cloud Computing may be used to facilitate the provision of mathematics content to feature phones. It is evident that AC3P may be applied in domains other than the provision of mathematics.
- Full Text:
- Date Issued: 2012
μCloud : a P2P cloud platform for computing service provision
- Authors: Fouodji Tasse, Ghislain
- Date: 2012 , 2012-08-22
- Subjects: Cloud computing , Peer-to-peer architecture (Computer networks) , Computer architecture , Computer service industry
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4663 , http://hdl.handle.net/10962/d1006669 , Cloud computing , Peer-to-peer architecture (Computer networks) , Computer architecture , Computer service industry
- Description: The advancements in virtualization technologies have provided a large spectrum of computational approaches. Dedicated computations can be run on private environments (virtual machines), created within the same computer. Through capable APIs, this functionality is leveraged for the service we wish to implement; a computer power service (CPS). We target peer-to-peer systems for this service, to exploit the potential of aggregating computing resources. The concept of a P2P network is mostly known for its expanded usage in distributed networks for sharing resources like content files or real-time data. This study adds computing power to the list of shared resources by describing a suitable service composition. Taking into account the dynamic nature of the platform, this CPS provision is achieved using a self stabilizing clustering algorithm. So, the resulting system of our research is based around a hierarchical P2P architecture and offers end-to-end consideration of resource provisioning and reliability. We named this system μCloud and characterizes it as a self-provisioning cloud service platform. It is designed, implemented and presented in this dissertation. Eventually, we assessed our work by showing that μCloud succeeds in providing user-centric services using a P2P computing unit. With this, we conclude that our system would be highly beneficial in both small and massively deployed environments. , KMBT_223 , Adobe Acrobat 9.51 Paper Capture Plug-in
- Full Text:
- Date Issued: 2012
- Authors: Fouodji Tasse, Ghislain
- Date: 2012 , 2012-08-22
- Subjects: Cloud computing , Peer-to-peer architecture (Computer networks) , Computer architecture , Computer service industry
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4663 , http://hdl.handle.net/10962/d1006669 , Cloud computing , Peer-to-peer architecture (Computer networks) , Computer architecture , Computer service industry
- Description: The advancements in virtualization technologies have provided a large spectrum of computational approaches. Dedicated computations can be run on private environments (virtual machines), created within the same computer. Through capable APIs, this functionality is leveraged for the service we wish to implement; a computer power service (CPS). We target peer-to-peer systems for this service, to exploit the potential of aggregating computing resources. The concept of a P2P network is mostly known for its expanded usage in distributed networks for sharing resources like content files or real-time data. This study adds computing power to the list of shared resources by describing a suitable service composition. Taking into account the dynamic nature of the platform, this CPS provision is achieved using a self stabilizing clustering algorithm. So, the resulting system of our research is based around a hierarchical P2P architecture and offers end-to-end consideration of resource provisioning and reliability. We named this system μCloud and characterizes it as a self-provisioning cloud service platform. It is designed, implemented and presented in this dissertation. Eventually, we assessed our work by showing that μCloud succeeds in providing user-centric services using a P2P computing unit. With this, we conclude that our system would be highly beneficial in both small and massively deployed environments. , KMBT_223 , Adobe Acrobat 9.51 Paper Capture Plug-in
- Full Text:
- Date Issued: 2012
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